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Miniaturized High-Speed FBG Interrogator on Photonic AWG Chip #Photonics #WorldResearchAwards

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Introduction Arrayed waveguide gratings (AWGs) play a central role in fiber Bragg grating (FBG) interrogation systems, yet conventional AWG-based interrogators are typically bulky, complex, and difficult to deploy in harsh or space-constrained environments. These limitations restrict their applicability in advanced sensing scenarios requiring portability, robustness, and real-time response. This research addresses these challenges by presenting a highly miniaturized FBG interrogator based on a photonic AWG chip, designed to deliver high precision and high-speed wavelength demodulation for demanding engineering applications. Photonic AWG Chip Design and Miniaturization The core of the proposed system is an ultra-compact photonic AWG chip measuring only 280 µm × 150 µm. This chip-level integration significantly reduces system size while maintaining high spectral resolution. By embedding the AWG within a compact photonic chip module, the interrogator achieves substantial miniaturizati...
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Distinguished Scientist Award | Honoring Global Research Excellence #WorldResearchAwards

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Introduction The Distinguished Scientist Award represents one of the highest forms of recognition in the global research ecosystem , honoring scientists whose work has significantly advanced knowledge, innovation, and societal progress. It celebrates researchers who consistently demonstrate excellence through original thinking, rigorous methodology, and impactful outcomes that shape the future of science and technology . This award highlights not only individual achievement but also the broader value of research in addressing complex global challenges. Research excellence and innovation At the core of the Distinguished Scientist Award is a strong emphasis on research excellence and innovation. Award recipients are recognized for groundbreaking discoveries, high-impact publications, and pioneering approaches that redefine existing scientific paradigms . Their research often opens new directions within their disciplines, introduces novel methodologies, and accelerates scientific progr...
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Advanced Nonlinear & Learning-Based Control for Complex Systems #WorldResearchAwards

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Introduction The rapid evolution of modern engineering systems has intensified the need for advanced modeling and control strategies capable of addressing complexity, uncertainty, and strong nonlinearities . Learning-based and nonlinear control methods have emerged as powerful tools for dealing with such challenges, enabling improved performance, robustness, and adaptability. Recent research highlights the integration of machine learning , optimization, and adaptive techniques as a promising pathway to overcome the limitations of classical control approaches in complex dynamical systems . Learning-Based Control for Complex Dynamics Learning-based control approaches leverage data-driven models and machine learning algorithms to capture unknown or partially known system dynamics. By continuously learning from real-time data, these methods can adapt to changing environments and uncertainties. Techniques such as reinforcement learning , neural-network-based controllers , and hybrid mo...
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Hybrid AI–Taguchi–ANOVA for Thermographic Monitoring of Electronic Devices #WorldResearchAwards

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  Introduction Printed circuit boards (PCBs) are fundamental to modern electronic systems, and their reliability directly affects the performance and safety of critical applications. Undetected defects in PCBs can evolve gradually, leading to unexpected failures and costly downtime. Conventional monitoring techniques, often limited to simulations or surface-level measurements, lack the capability for real-time fault detection and predictive maintenance. This research addresses these limitations by introducing an integrated framework that combines infrared thermography (IRT), artificial intelligence (AI), and Taguchi–ANOVA statistical methods to enable accurate, real-time diagnosis of thermal anomalies in operating PCBs . Infrared Thermography for Real-Time PCB Monitoring Infrared thermography serves as a non-contact, non-destructive technique for capturing thermal signatures of PCBs during normal operation. By visualizing heat distribution and thermal stresses , IRT reveals hi...
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Comparative Analysis of Vibration Axis Effect Ultrasonic Machining Inconel 718 #WorldResearchAwards

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Introduction Inconel 718 is a nickel-based superalloy extensively used in aerospace and other critical engineering applications due to its excellent high-temperature strength, creep resistance , and corrosion resistance. Despite these advantages, its poor machinability poses serious challenges, including excessive cutting forces , rapid tool wear , and inferior surface quality when using conventional machining. Ultrasonic Vibration-Assisted Machining (UVAM) has gained significant attention as an advanced manufacturing approach capable of addressing these issues by introducing controlled high-frequency vibrations into the cutting process. This research focuses on understanding how different UVAM vibration axes influence the machining performance of Inconel 718. Challenges in conventional machining of inconel 718 The machining of Inconel 718 using conventional methods is hindered by its high hardness, strong work-hardening behavior, and low thermal conductivity. These properties lead...
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Best Extension Activity Award | Transforming Society Through & Innovation #WorldResearchAwards

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Introduction The Best Extension Activity Award underscores the transformative power of research when it extends beyond academic boundaries into society. Research-driven extension activities translate scientific knowledge into practical applications, ensuring that discoveries benefit communities, industries, and public institutions. By integrating research outcomes with outreach and engagement, this award highlights how scholarly work can directly contribute to societal well-being, innovation, and inclusive development. Research-to-Society Knowledge Transfer Effective extension activities are grounded in robust research that is communicated clearly to non-academic audiences. Through workshops, public lectures, policy briefs, and demonstration projects, researchers ensure that evidence-based knowledge informs decision-making and everyday practices. This research-to-society transfer strengthens public trust in science while maximizing the real-world relevance of academic investigatio...
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Fractatomic Physics Explained: Atomic Stability & Rydberg States Fractal Spaces #WorldResearchAwards

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Introduction Fractatomic physics represents a novel extension of conventional atomic physics by exploring how quantum systems behave in non-integer, fractal-dimensional spaces . Unlike standard Euclidean environments, fractal spaces alter the scaling laws that govern atomic stability, electron confinement, and wavefunction behavior. By treating fractal dimensionality both as a theoretical generalization and a physically realizable laboratory framework, this research opens a new paradigm for understanding atomic structure, quantum stability, and emergent phenomena beyond classical dimensional constraints. The study positions fractal space as a powerful lens through which foundational principles of quantum mechanics can be re-examined and expanded. Ehrenfest Instability in Fractal Dimensions A central research focus is identifying the critical threshold of fractality at which Ehrenfest atomic instability arises. At this point, the Schrödinger equation governing a single-electron ato...
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